# How to animate the twisting of a rope?

What is a good reliable method to animate multiple ropes being twisted together? One end of the ropes will be fixed in space, while the other ends rotate in a circle, creating twist. All the ropes should be along the edge of this imaginary circle (none in the middle), and do not come together (the twist moves closer to the ends, and the angle of the ropes between the twist and then end becomes steeper). These ends are separated not together. How can this be animated? Simulations are ideal in this regard, since I may need to twist a considerable number of ropes.

So far I've tried:

• linking several spheres with constraints and performing a rigid body simulation
• Soft body simulation on a curve
• Cloth sim on line of vertices

None of these worked very well (maybe I'm doing something wrong).

• Why does needing to do this for a large number of ropes mean that simulation is preferred? Jun 12, 2015 at 14:53
• Because they aren't all twisting into one rope, its a very complicated twisting motion, but I was trying to get a simple twist for now, and a hand animated approach is a valid answer. Jun 12, 2015 at 15:09
• So to be clear, you want sections of the rope to come together and wrap around each other to form the rope? Jun 12, 2015 at 23:34
• @TheMinecraftMan757 Yes. Jun 13, 2015 at 0:12
• maybe relevant? blenderdiplom.com/en/tutorials/all-tutorials/… Jun 15, 2015 at 20:03

The twisting ropes is best accomplished using a curve modifier.

Start with a mesh that has a high enough resolution along the length of the "rope". Then create a curve representing one of the twisted ropes plus some untwisted rope leading away. Finally, add a Curve modifier to the rope mesh; choose the guide curve, and set the Deformation Axis to match the helical axis of the guide curve (I used Z for my demo).

In a static situation you will see the rope coiled along part of the curve, and then follow the untwisted part away. Create a 2nd and third copy of the rope mesh and the curve guide to illustrate 3 threads twisting together. For 3 curves you will want to rotate each one by 120 degrees.

In order to animate this, have each guide curve spin on its helical axis. This will appear as three ropes spinning in a partly twisted state. In order to make it seem like the twist is progressing along the ropes, animate the curve to move lengthwise along its helical axis (keyframes for the Z coordinate). The change in the relative position between the mesh and the guide curve causes the mesh to change what part of the curve it follows over time.

You will probably want the fcurves to be linearly interpolated (t in the curves editor) and linearly extrapolated (shift-e).

Unfortunately, the exact geometry of this situation causes the mesh to slide backwards along the curve (because the length of the curve is longer than the axial distance travelled). To compensate, you can animate the mesh to translate in the opposite direction to the curve.

If you don't want to animate the Z location of each of the 3 meshes independently, you can animate a single one and use the Dope Sheet's Action Editor mode to give all of the meshes the same Action datablock which will cause them all to animate identically.

Now you have an animation where the twisted end of the rope appears to be spinning and the loose end with the threads is sliding up along the Z axis. If the loose ends are supposed to be spinning, you will have to animate the guide curves spinning as well.

If your guide curve is constructed by python, you should know exactly how much translation represents a full twist of the helix. If not, you can just eyeball it. Again: you will probably want the fcurves to be linearly interpolated and linearly extrapolated.

There is a remaining twisting motion of the thread mesh that you can counteract by animating the rotation of the mesh. You can eyeball this (mostly because I don't know exactly what equations are in play so I can't guide you to a mathematical calculation). Again, you will want to make this linear to match the animation of the guide curves.

The final hairball is keeping the loose ends of the thread at a constant distance from the helical axis. This requires us to animate the SHAPE of the guide curve. This is accomplished using a Hook modifier. The hook modifier can be used on curves and on meshes.

While the hook modifier can bind several vertices or control points to the motion of another object or bone, the simplest situation is to hook a single control point to a single empty.

Select the curve. Switch to Edit mode and select the control point for the loose end. Use Ctrl-h to hook that point to a New Object. Switch back to Object mode.

The curve is still the active object, and the new empty has conveniently been added to the selection. Use Ctrl-p to parent the empty to the curve. This will allow it to rotate with the curve.

Now you must move the empty into position to match whatever frame the "loose" ends of the thread are attached to. Since I chose Z for my helical axis, that means my X and Y will remain fixed. I will animate the Z so that the hooked empty lines up with the end of the rope mesh. You probably want to take care not to keyframe the X and Y position (you can select the unwanted data_paths in the Graph Editor and x to get rid of them if you accidentally create keyframes for X or Y).

(The reason you avoid keyframing X and Y is so you can reuse the animation on the other hook empties. It revolves around the obj.matrix_parent_inverse and could easily become its own essay if I knew what the heck was going on).

At the beginning of the animation the keyframes of the hook empty can be spaced out (1/rotation was fine at the beginning). However, as you reach the end of the animation and the available rope begins to run out, the Z will have to change faster, and non-linearly (I think it ends up being a hyperbola). Just scrub through the time line; adjust the Z coordinate; and insert a keyframe. If you aren't satisfied go ahead and insert more keyframes whenever the hook deviates too far from the end of the rope.

Once you have animated one hook you can repeat the hook-creation procedure to create hooks for the other threads. However you do not have to repeat the keyframing.

Since the hooks are children of the curves, you can reuse the animation datablock. Go into the Dope Sheet and switch it to Action Editor mode while the Empty is the active object. You can use the menu button to pick the action from the previously-animated empty (you might have to select that first empty so you can see its action name in the Action Editor if you did not memorize it). Now the action is shared between those objects. (The NLA editor also has the ability to assign actions to the active object, but as of 2.74 there are bugs in the UI that can confuse novice users).

At this point, your twisting ropes should be animating correctly, at least for a certain range of frames.

If you go too early, your ropes will separate because they no longer line up with the helical portion of the guide curve. And if you go too late they "break loose" from the frame and become completely wrapped.

Because I am better at python than hand-modeling, I constructed the curves using the script at http://web.purplefrog.com/~thoth/blender/python-cookbook/spiral-bezier.html . I will include a copy of the python source inline, even though it is only peripherally interesting, and you might need a different shape on your more advanced curves:

import bpy
from mathutils import *

bpoint.handle_right = bpoint.co * 2 - bpoint.handle_left

def set_handles(bpoint, dx, dy, dz):
bpoint.handle_right = bpoint.co + Vector([dx,dy,dz])
bpoint.handle_left = bpoint.co - Vector([dx,dy,dz])

curve = bpy.data.curves.new(name, 'CURVE')
curve.dimensions = '3D'

bez = curve.splines.new('BEZIER')

after_spiral = 4 * cycle_count
final_length = after_spiral +1

for bp in bez.bezier_points:
bp.handle_left_type = 'FREE'
bp.handle_right_type = 'FREE'

for i in range(cycle_count):
bp0 = bez.bezier_points[i*4]
y = 0
z = (i)*dz
bp0.co = (x,y,i*dz)

bp1 = bez.bezier_points[i*4+1]
x = 0
z = (i+0.25)*dz
bp1.co = (x,y,z)

bp2 = bez.bezier_points[i*4+2]
y = 0
z = (i+0.5)*dz
bp2.co = (x,y,z)

bp3 = bez.bezier_points[i*4+3]
x = 0
z = (i+0.75)*dz
bp3.co = (x,y,z)

bp = bez.bezier_points[after_spiral]
x=100
z = dz*(cycle_count -0.25) + x/(radius*.5) * dz/12
bp.co = (x,y,z)

return curve

name = "spiral"
obj = bpy.data.objects.get(name)
curve = make_bezier_spiral(name, radius, dz, cycle_count)
if obj is None:
obj = bpy.data.objects.new(name, curve)
else:
obj.data = curve
try:
except:
pass

#

scn = bpy.context.scene
mission1(scn, 2, 12, 5)


This solution works well for twisting, but if you end up needing weaving or any other complex motions, you may need more hooks on the control points of your curves, or resort to more advanced techniques such as a hundred-bone armature chain.

• Although mutant Bob pointed out the correct method (almost an hour after this I might add... He didn't see it though. :/), there are ways to make better curves that the rope will travel around to make a more realistic rope weaving action. Real ropes aren't just compromised of a twist, but really run in and out and trough and back on each other. blend-exchange.giantcowfilms.com/b/273 Jun 15, 2015 at 19:23
• In my defense, I started on it Saturday, but could only get the python half-done before they closed the artist workshop. I don't mind if someone else builds on my work to get closer to the final answer. I stand on the shoulders of giants myself. Jun 15, 2015 at 19:36
• Oh, no, that's perfectly fine... you didn't see the post.. I wasn't trying to accuse you.. it's just a little frustrating is all. Congrats on the answer. Jun 15, 2015 at 19:40
• @RadishoftheOpera, Mutant Bob is twisting it correctly in that respect. It should be making a simple twist, that is what I'm trying to do Jun 15, 2015 at 19:41
• @MutantBob The ends come closer together as they twist. Would it be possible to have them remain the same distance apart with your method? Jun 15, 2015 at 19:42